Mecanisme d'action des antiarythmiques de classe III #MMPMID7786143
Adamantidis MM
Arch Mal Coeur Vaiss 1995[Jan]; 88 Spec No 1 (?): 33-40 PMID7786143show ga
Vaughan-Williams class III antiarrhythmic agents act mainly by prolonging the duration of the cardiac action potential and, thus, the refractory period. This effect may be obtained: 1) by increasing the inward sodium or calcium currents, which may lead to an intracellular calcium overload and induce a very proarrhythmic situation, or 2) by decreasing the outward potassium currents, the objective of the new class III antiarrhythmic drugs under development. They selectively block one or several potassium channels regulated by the membrane potential (transient outward current Ito, delayed rectifying current IK and rectifying inward current IK1). Under physiological conditions the blockade of potassium channels regulated by a ligand (for example, ATP-dependent) does not lead to a class III effect. Prolongation of ventricular repolarisation is accompanied by a slowing of the heart rate and a positive inotropic effect. It is attenuated by rapid rhythms and amplified by slow rhythms: this is the reverse frequency-dependent phenomenon. However, normal frequency dependence (or "use-dependence") has been reported with the ionic channel, this paradox apparently being related to the complexity of the relations between the relative contributions of the ionic currents of repolarisation and their modulation by the heart rate. The class III effect confers a proarrhythmic potential and may lead to torsades de pointes, favorised by bradycardia, hypokalaemia and hypomagnesaemia. Experimentally, it favorises early after depolarisations which are presumed to be the cellular trigger event. The comprehension of factors influencing the antiarrhythmic and proarrhythmic class III effects has led to the establishment of a pharmacological profile of the "ideal" drug conferring the least proarrhythmic risk and the best efficacy.
Arch+Mal+Coeur+Vaiss 1995 ; 88 Spec No 1 (?): 33-40
